RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
I saw #ZincFinger trending yesterday. Then I saw the interesting tweet combination below. Excited to read about adding machine learning to decades of work on ZF and ZFN to produce ZFDesign: https://t.co/6JLdw2vbWe https://t.co/q4nr9gyuGg
A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/WzXiSfqHyU
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
Using hierarchical transformer networks to decide zinc-finger protein groupings for modulating any genomic target. Biology is so complex that until recently, engineering had largely seemed intractable. Machine intelligence appears to be up to the task 🧪👩💻
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @agingdoc1: A universal deep-learning model for zinc finger design enables transcription factor reprogramming Powerful🤯 & "the design o…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming Powerful🤯 & "the design of ZFs for any given target is now available at the push of a button and is open to the academic community." 🔗https://t.co/0r4Ze
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @RutgerGjaltema: When CRISPR thought it could have it all, designer Zinc Fingers are tipping their toes back in the epigenetic editing a…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
When CRISPR thought it could have it all, designer Zinc Fingers are tipping their toes back in the epigenetic editing arena.
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeMB https://t.co/mTYaaoZvG3
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
#GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes speedy gene-editing possible. The model could accelerate the development of gene therapies on a large scale - https://t.co/IaW4E9qyju